Phenothiazine drugs: structure-activity relationships explained by a conformation that mimics dopamine.

AUTOR(ES)

Feinberg, A P

RESUMO

The antischizophrenic activity of phenothiazine drugs and their tendency to elicit extrapyramidal symptoms are thought to involve blockade of synaptic dopamine receptors in the brain. Space filling molecular models show how favorable Van der Waal's interactions between the side chain amino of phenothiazines and the 2-substituent on ring A can promote a conformation mimicking dopamine. These Van der Waal's attractive forces can expain (i) the greater potency of drugs with trifluoromethyl rather than chlorine as a 2-substituent; (ii) the enhanced activity of phenothiazines with piperazine instead of alkylamino side chains; (iii) the increased potency associated with hydroxyethylpiperazines as contrasted to piperazine side chains; (iv) the greater potency of cis rather than trans thioxanthenes; and (v) the crucial location of the ring A substituent at carbon no. 2. Potential energy calculations support the observations with molecular models and suggest an active conformation for the phenothiazines.

Documentos Relacionados

• Structure–Activity Relationships and Quantitative Structure–Activity Relationships for Breast Cancer Resistance Protein (ABCG2)
• Semisynthetic Coumermycins: Structure-Activity Relationships
• Structure-activity relationships of the fluoroquinolones.
• Structure-activity relationships of new antiviral compounds.
• Structure-Activity Relationships in Microbial Transformation of Phenols